Tag Archives: Innovate UK

As cities realise the need to improve sustainability, many are turning to innovative technologies to address challenges such as traffic congestion and air pollution. Here, the ‘smart agenda’, with its focus on technology and urban infrastructure, overlaps with the ‘sustainability agenda’ – usually associated with energy, waste management, and transport.

In 2015, an international research project – coordinated by the University of Exeter and involving teams from the UK, China, the Netherlands, France, and Germany – was launched to investigative how smart-eco initiatives can be used to promote the growth of the green economy. As part of this work, the report ‘Smart-eco cities in the UK: trends and city profiles 2016’ was published.

Below we’ve highlighted some interesting case studies from this report.

Glasgow

Glasgow’s smart city approach has been described as ‘opportunistic’ (as opposed to strategy-led) by the report’s authors. New initiatives are often linked to creative organisations/individuals and competition funding, such as Future City Glasgow, which was awarded £24 million by the Technology Strategy Board (now Innovate UK).

Nonetheless, this has helped Glasgow become a smart city leader, not just in the UK, but globally.

Almost half of the £24 million Innovate UK funding was spent on the Operations Centre, located in Glasgow’s east end. The new state-of-the-art facility integrates traffic and public safety management systems, and brings together public space CCTV, security for the city council’s museums and art galleries, traffic management and police intelligence. As well as helping the police and emergency services, the centre can prioritise buses through traffic (when there are delays) and has recently supported the Clean Glasgow initiative, a project to tackle local environmental issues, such as littering.

Intelligent street lighting was also a major part of Future City Glasgow. Three sections of the city have been fitted with new lighting: a walkway along the River Clyde; a partly pedestrianised section of Gordon Street; and Merchant City, a popular retail and leisure district. The new lighting includes built-in sensors which provide real-time data on sound levels, air quality, and pedestrian footfall. ‘Dynamic’ lights, which use motion sensors to vary lighting – increasing levels when pedestrians walk by – have also been introduced.

London

London’s smart city programme is linked to the challenges it faces as a leading global city. Its need for continuous growth and remaining competitive has to be balanced with providing infrastructure, services, and effective governance.

The Greater London Authority (GLA) is behind both the strategy, through the Smart London Board, and the practical delivery of various activities. Much of their work focuses on encouraging collaboration between business, the technology sector, and the residents of London. For example, the London Datastore, which includes over 650 governmental (and some non-governmental) data sets, plays an important role in ensuring the city’s data is freely available to all. Visitors can view a wide variety of statistics and data graphics, on areas such as recycling rates, numbers of bicycles hired, and carbon dioxide emission levels by sector.

In 2014, the Smart London District Network was established to explore how technology could be used in four regeneration projects: Croydon; Elephant & Castle; Imperial West; and the London Olympic Park. To support this, the Institute for Sustainability was commissioned to run a competition asking technology innovators to pitch innovative ideas for these projects. Winners of this competition included the company Stickyworld, who created an online platform which supports stakeholder engagement through a virtual environment, and Placemeter, who developed an intelligent online platform which analyses the data taken from video feeds and provides predictive insights.

Manchester

Recently, the City of Manchester Council consolidated their smart city initiatives into the Smarter City Programme. The Smart-eco cities report explains that the programme draws on the city’s 2012 submission to the ‘Future Cities Demonstrator’ competition, focusing on the development of Manchester’s Oxford Road ‘Corridor’ around five main themes:

enhanced low carbon mobility

clean energy generation and distribution

more efficient buildings

integrated logistics and resource management

community and citizen engagement

Manchester’s approach to becoming a smarter city involves a wide range of partners. For instance, Triangulum is a €25m European Commission project involving Manchester and two other cities (Eindhoven and Stavanger) to transform urban areas into ‘smart quarters’.

In Manchester, the council-led project will integrate mobility, energy, and informations and communications technology (ICT) systems into the infrastructure along the Corridor. It will introduce a range of technologies into assets such as the University of Manchester Electrical Grid, with the aim of showing their potential for supplying, storing and using energy more effectively in urban environments. Data visualisation techniques, based on the use of real-time data, will also be developed.

In 2016, Manchester launched CityVerve, a £10 million collaborative project to demonstrate internet of things technologies. The project will involve several smart city initiatives, including:

talkative bus stops, which use digital signage and sensors, to provide information to passengers and provide data to bus operators on the numbers waiting for buses

air quality sensors in the street furniture

‘Community Wellness’ sensors in parks, along school and commuter routes, to encourage exercise

a ‘biometric sensor network’, to help people manage their chronic respiratory conditions

Final thoughts

There is great excitement about the potential for smart city technologies. However, as is highlighted by the smart-eco cities report, many are limited in scale, short term, and based on competition funding. If we want to create sustainable cities, which meets challenges of the future, greater investment will be needed from both public and private sector.

Follow us on Twitterto see what developments in public and social policy are interesting our research team. If you found this article interesting, you may also like to read our other smart cities articles.

In 2013, Glasgow City Council won £24 million worth of funding from Innovate UK (formerly the Technology Strategy Board) that would see the city become a ‘living lab’ for smart city projects.

Although Glasgow has been more synonymous with low life expectancies (the so called ‘Glasgow Effect’) and urban deprivation, the funding was intended to transform Glasgow into a world leading smart city, with the technologies piloted by Glasgow eventually being used in other cities.

The projects proposed by Glasgow City Council were designed to explore innovative ways to use technology and data to make the city ‘safer, smarter and more sustainable’.

However, three years on, with the majority of the work complete, has the programme been a success?

Managing a future city

From the beginning, Future City Glasgow set out an ambitious programme for change. However, it wasn’t just the experimental nature of the technologies or implementing them in such a short space of time which caused challenges. The programme also had an important role to play in the security of the 2014 Commonwealth Games – a major international event for the city.

Just under half of the programme’s funding was spent on a new state-of-the-art Operations Centre, integrating traffic and public safety management systems, and bringing together public space CCTV, security for the city council’s museums and art galleries, traffic management and police intelligence.

Although this has required significant investment, the centre has enabled Glasgow to take a ‘proactive’ approach to traffic management and public safety. Video analytics tools, for example, provide operation centre operators with better information to help respond to emerging events. And traffic operators have control over the city’s signalling, allowing them to prioritise late-running public transport. CCTV cameras have also been upgraded to full HD, providing better images for operators and an important source of evidence for Police Scotland.

Demonstrator projects

A major part of Future City Glasgow’s work has been introducing a number of demonstrator projects. According to Gary Walker, programme director at Future City Glasgow, these focus on four main themes: energy; active travel (encouraging people to walk and cycle); public safety; and transport. Some of the most notable projects, include:

Intelligent street lighting – the Riverside Walkway has lighting which switches on when people walk by, and Gordon Street has lighting which provides real time data on noise levels, footfall, and air pollution.

Sensor technology in retrofitting – low cost sensors (the BuildAx and the Eltek GC-05) have been deployed in buildings throughout Glasgow to evaluate the impact of insulation projects.

The Glasgow Cycling App – an easy to use platform has been created to encourage cyclists to share their experiences of cycling and to generate data that could help citizens plan journeys or highlight areas the council should target for improvement.

The challenge of data

Much of Future City Glasgow has been underpinned by data sharing – including traffic data gathered by the Operations Centre and citizen-generated data from the Glasgow Cycling App.

However, ‘freeing’ this data proved challenging, as sharing data went against the traditional working culture of local government. As Gary Walker explained to the Guardian newspaper:

“Change can be challenging – especially when you are driving something that appears to contradict everything you’ve had drummed into you for years. Initially, organisations were nervous when we asked them to release their data because people know they must protect it. But once they realised that we were not asking for sensitive or personal data they began to relax a little and appreciate the value in creating a data hub.”

After some awareness raising and reassurance, the Glasgow Data Launchpad, a publicly available repository for the city’s data, now has over 400 datasets from 60 organisations, including Glasgow City Council, Glasgow Life (which delivers cultural, sporting and learning activities on behalf of Glasgow City Council), and the Department for Work and Pensions (DWP).

Looking to the future

As Gary Walker noted at a recent Smart Cities event, Future City Glasgow has received a lot of international interest. The programme has also won a number of awards, including:

Winner – Geospatial World Excellence Awards 2015

Winner – NextGen Digital Challenge (Digital Innovation) 2015

Winner – Holyrood Connect ICT (Innovation) 2015

However, it’s important that the city doesn’t become complacent and continues to progress with smart city initiatives. Alan Robertson, in an article for Holyrood magazine, suggests that financial pressures facing local councils may put initiatives in jeopardy. For instance, he highlights that Glasgow City Council leader Frank McAveety has warned that the city faces “impossible budget cuts”.

There are, however, some positive signs that work will continue. Last year, the Scottish Government introduced Smart Cities Scotland, a new programme which aims to make Scotland’s cities more efficient and greener, and more attractive to potential investors. The programme received £10 million in European funding and will involve a collaboration between Scotland’s seven cities and the Scottish Government.

Final thoughts

Future City Glasgow has had many successes since it was launched three years ago. Although Smart Cities Scotland promises less funding, Future Cities Glasgow has provided the smart city infrastructure capable of supporting new projects.

In terms of driving growth, it will also be interesting to see how Glasgow City Council responds to new forces within future cities, including disruptive business models and technologies, such as controversial tech companies Uber and Airbnb.

Follow us on Twitterto see what developments in public and social policy are interesting our research team. If you found this article interesting, you may also like to read our other smart cities articles.

Last month, the House of Commons Business, Innovation and Skills (BIS) Committee launched an inquiry into the UK’s digital economy. Iain Wright MP, the Chair of the Committee, explained that:

“Digital technology is rapidly changing the economic landscape in which firms operate. Nothing short of a digital and tech revolution is taking place, with new entrepreneurs and business models emerging and existing businesses having to adapt quickly to keep pace.”

The inquiry will focus on three areas:

Government actions affecting businesses in the digital economy;

how to maximise the opportunities and overcome challenges in the sector;

how the sector can contribute to improving national productivity.

The BIS Committee is asking for submissions from those involved in the digital economy, including digital businesses and companies hoping to benefit from technology.

Why should the government support the digital economy?

Innovate UK expect that, by 2015, the UK digital economy will account for 10% of GDP. Tech City UK report that the sector employs 1.5 million people (about 7.5% of the total workforce); although this is expected to increase by 5.4% by 2020. In 2013-2014, 15% of all the companies formed were digital businesses. Most were based outside of London (74%) and nearly all were SMEs (98%). The majority (90%) of digital companies expect revenues to grow within the next year.

Technology clusters

Technology clusters play an important role in the UK’s digital economy. There are 21 clusters across the UK, with expertise ranging from software development to marketing and advertising. The majority of digital businesses consider themselves part of a cluster (65%). Bournemouth has the fastest growing digital cluster, with a 212% increase in the number of companies formed since 2010. Its specialism is digital marketing and advertising.

This growth suggests specific focus should be given to technology clusters. Tech City UK found that a third of digital companies highlighted access to funding as a challenge, particularly outside of London and the South East. One suggestion offered by Tech City UK is that businesses need to take advantage of European funding where possible.

Other forms of support could include: providing fast and accessible broadband; access to a pool of skilled employees; suitable workspace, particularly in the South East; and business and mentoring advice.

Digital Economy Strategy 2015-2018

At the beginning of the year, Innovate UK set out a strategy to support UK businesses in getting the most out of digital technology. It sets out five main objectives:

Encouraging digital innovators

Focusing on the user

Equipping the digital innovator

Growing infrastructure, platforms and ecosystems

Ensuring sustainability.

Within the strategy, actions are put forward for how these goals will be achieved. For instance, to ensure sustainability, Innovate UK would work closely with UK research councils to encourage cross-disciplinary academic collaboration and help connect it to real-world business needs. If even some progress is made with each of these objectives it would be hugely beneficial for the UK digital economy.

Innovation centres – the Digital Catapult

The Digital Catapult is a national centre that aims to accelerate the UK’s best digital ideas to the marketplace, in order to create new products, services and jobs. It was established in 2014 by Innovate UK and is based in the Knowledge Quarter in Kings Cross. There are also three local centres in the North East and Tees Valley (NETV), Brighton, and Yorkshire.

The Digital Catapult centres focus on the challenges associated with: closed organisational data; personal data; creative content; and the internet of things (IoT). The centres are involved in a number of projects, including IoTUK, which has been launched as part of a £40 million government investment in the internet of things (the use of networks to allow the exchange and collection of data from everyday objects, such as fridges). The programme aims to increase the adoption of high quality IoT technologies and services throughout business and the public sector.

Regina Moran, CEO at Fujitsu UK&I, notes that:

“The IoT has the potential to turn ideas in a hyper-connected world into fully realised digital services but it has challenges ahead and it’s encouraging to see the Government investing in its development.”

Regulation

The Prime Minister, David Cameron, has managed to convince the European Commission (EC) to review the VAT regime for tech start-ups, arguing that it punished British entrepreneurs. The regime, which was implemented in January, forced companies to pay tax in every country they traded in rather than their headquarters. It also eliminated a £81,000 threshold for which companies have to register for VAT duty.

However, the Commission has recognised that this was adversely affecting small businesses. Therefore, measures such as the reintroduction of the VAT threshold and a single registration scheme for cross-border taxes, will be included in the Commission’s consultation.

The UK government’s approach shows a commitment to providing a competitive business environment and a single European market in digital services. It’s likely that most digital businesses would support the government’s approach.

Concluding remarks

The upcoming BIS Committee inquiry will provide an opportunity to reflect on the government’s approach so far. Although evidence confirms that the digital economy has been growing, there may be areas that the UK is failing to capitalise on. In a highly competitive globalised economy, it’s important that the UK exploits any strategic advantage, ensuring that innovative ideas are brought to the market quickly.

The inquiry will also provide an opportunity for a dialogue between the government and the private sector. This increased collaboration can only be good news for the UK’s digital businesses.

Here at Idox, we take an active interest in the future of the digital economy and eagerly await the Committee’s findings.

Follow us on Twitter to see what developments in public and social policy are interesting our research team.

Enjoy this article? Read our other recent blogs relating to the digital economy:

IDOX Plc announced on 8 October 2015 that it had acquired the UK trading arm of Reading Room Ltd. Reading Room, founded in 1996, is a digital consultancy business with a focus on delivering websites and digital services that enable its customers to make critical shifts into digital business and client engagement. It has an international reputation for its award winning and innovative approaches to strategic consultancy, design, and technical delivery.

From penicillin to Dolly the sheep, the UK has always been at the forefront of scientific innovation. Last month, the Chancellor, George Osborne, gave a boost to the scientific community when he welcomed the idea of a National Institute for Materials Research and Innovation in the North of England. The Chancellor said that this would create new jobs and attract further investment, emphasising that the government are committed to the creation of a ‘Northern Powerhouse’.

This is just one example of how scientific innovation can be used to support economic development. Below I’ve identified some of the key ingredients to developing innovation, as well as providing several examples of good practice across the UK and Ireland.

Innovation infrastructure

The North West Business Leadership Team (NWBLT) report highlights the importance of having the infrastructure in place to support innovation. Crucially, it suggests that the ability to create partnerships between organisations and across business, government agencies, and academia, helps firms to gain a competitive advantage. For example, the Virtual Engineering Centre, a partnership between the Hartree Centre and the University of Liverpool, supports companies such as Jaguar Land Rover to improve their business performance through the adoption of the latest techniques and tools.

Business clusters, particularly digital clusters, have also proven to be important for driving innovation and increasing productivity. These clusters involve bringing together the right innovative people and providing them with access to the right resources in a small geographical area.

Some notable examples include Tech City in East London, which is a cluster of technology and creative firms, and Dublin’s Digital Hub, a project based in the Republic of Ireland, which contains a range of firms, focused around digital media and entrepreneurship. The clusters blend technology companies with organisations from other sectors, including retail, leisure and advertising.

They also play a key role in helping start-ups to develop. For instance, it’s been shown that the development of the nanotechnology industry has been related to a small number of scientific clusters across the world.

Start-ups and agile SMEs

Start-ups and SMEs are important for bringing new products, technologies and services onto the market. Universities can play an important role in providing a wide variety of support to SMEs. Several programs already exist in universities across the UK, including the University of Leicester’s “SME Support to Growth” project, which offers advice on exporting internationally, and the University of Birmingham’s Accelerating Business-Knowledge Base Innovation Activity (ABIA) project, which provides varied and tailored support to SMEs working in science and technology in the West Midlands, including access to support from doctoral researchers.

Additionally, the University of Manchester has also been very successful in launching SMEs. This includes Nanoco, a firm that develops and manufactures quantum dots and semiconductor nanoparticles that are used in a number of areas, such as bio-imaging and solar energy.

The Campaign for Science and Engineering (CaSE) has also raised the issue of investment in SMEs. They have voiced their concern over the UK government’s cuts to research spending, highlighting that the UK is below the EU average on research spending and is 21st in the league tables of research spending, behind countries such as Belgium and the Czech Republic. The report suggests that increased funding should be given to Innovate UK, a body that supports innovation in business.

Highly skilled workforce

The Department for Business, Innovation, and Skills emphasises the importance of having people with the necessary science, technology, engineering and maths (STEM) skills to generate new knowledge. In addition to technical skills, the report makes it clear that the UK must produce people who have an understanding of business management and the entrepreneurial skills to develop their innovation commercially.

The Idox Information Service has a wealth of research reports, articles and case studies on a range of economic development issues. Abstracts and access to journal articles are only available to members.